5,152 research outputs found
Public relations in the World Bank
Thesis (M.S.)--Boston Universit
Area law for fixed points of rapidly mixing dissipative quantum systems
We prove an area law with a logarithmic correction for the mutual information
for fixed points of local dissipative quantum system satisfying a rapid mixing
condition, under either of the following assumptions: the fixed point is pure,
or the system is frustration free.Comment: 17 pages, 1 figure. Final versio
Reranking candidate gene models with cross-species comparison for improved gene prediction
Background: Most gene finders score candidate gene models with state-based methods, typically HMMs, by combining local properties (coding potential, splice donor and acceptor patterns, etc). Competing models with similar state-based scores may be distinguishable with additional information. In particular, functional and comparative genomics datasets may help to select among competing models of comparable probability by exploiting features likely to be associated with the correct gene models, such as conserved exon/intron structure or protein sequence features.
Results: We have investigated the utility of a simple post-processing step for selecting among a set of alternative gene models, using global scoring rules to rerank competing models for more accurate prediction. For each gene locus, we first generate the K best candidate gene models using the gene finder Evigan, and then rerank these models using comparisons with putative orthologous genes from closely-related species. Candidate gene models with lower scores in the original gene finder may be selected if they exhibit strong similarity to probable orthologs in coding sequence, splice site location, or signal peptide occurrence. Experiments on Drosophila melanogaster demonstrate that reranking based on cross-species comparison outperforms the best gene models identified by Evigan alone, and also outperforms the comparative gene finders GeneWise and Augustus+.
Conclusion: Reranking gene models with cross-species comparison improves gene prediction accuracy. This straightforward method can be readily adapted to incorporate additional lines of evidence, as it requires only a ranked source of candidate gene models
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Kv2.1 channels play opposing roles in regulating membrane potential, Ca2+ channel function, and myogenic tone in arterial smooth muscle.
The accepted role of the protein Kv2.1 in arterial smooth muscle cells is to form K+ channels in the sarcolemma. Opening of Kv2.1 channels causes membrane hyperpolarization, which decreases the activity of L-type CaV1.2 channels, lowering intracellular Ca2+ ([Ca2+]i) and causing smooth muscle relaxation. A limitation of this model is that it is based exclusively on data from male arterial myocytes. Here, we used a combination of electrophysiology as well as imaging approaches to investigate the role of Kv2.1 channels in male and female arterial myocytes. We confirmed that Kv2.1 plays a canonical conductive role but found it also has a structural role in arterial myocytes to enhance clustering of CaV1.2 channels. Less than 1% of Kv2.1 channels are conductive and induce membrane hyperpolarization. Paradoxically, by enhancing the structural clustering and probability of CaV1.2-CaV1.2 interactions within these clusters, Kv2.1 increases Ca2+ influx. These functional impacts of Kv2.1 depend on its level of expression, which varies with sex. In female myocytes, where expression of Kv2.1 protein is higher than in male myocytes, Kv2.1 has conductive and structural roles. Female myocytes have larger CaV1.2 clusters, larger [Ca2+]i, and larger myogenic tone than male myocytes. In contrast, in male myocytes, Kv2.1 channels regulate membrane potential but not CaV1.2 channel clustering. We propose a model in which Kv2.1 function varies with sex: in males, Kv2.1 channels control membrane potential but, in female myocytes, Kv2.1 plays dual electrical and CaV1.2 clustering roles. This contributes to sex-specific regulation of excitability, [Ca2+]i, and myogenic tone in arterial myocytes
Enhanced skin carcinogenesis and lack of thymus hyperplasia in transgenic mice expressing human cyclin D1b (CCND1b)
Cyclin D1b is an alternative transcript of the cyclin D1 gene (CCND1) expressed in human tumors. Its abundance is regulated by a single base pair polymorphism at the exon 4/intron 4 boundary (nucleotide 870). Epidemiological studies have shown a correlation between the presence of the G870A allele (that favors the splicing for cyclin D1b) with increased risk and less favorable outcome in several forms of cancer. More recently, it has been shown that, unlike cyclin D1a, the alternative transcript D1b by itself has the capacity to transform fibroblasts in vitro. In order to study the oncogenic potential of cyclin D1b, we developed transgenic mice expressing human cyclin D1b under the control of the bovine K5 promoter (K5D1b mice). Seven founders were obtained and none of them presented any significant phenotype or developed spontaneous tumors. Interestingly, K5D1b mice do not develop the fatal thymic hyperplasia, which is characteristic of the cyclin D1a transgenic mice (K5D1a). Susceptibility to skin carcinogenesis was tested in K5D1b mice using two-stage carcinogenesis protocols. In two independent experiments, K5D1b mice developed higher papilloma multiplicity as compared with wild-type littermates. However, when K5D1b mice were crossed with cyclin D1KO mice, the expression of cyclin D1b was unable to rescue the carcinogenesis-resistant phenotype of the cyclin D1 KO mice. To further explore the role of cyclin D1b in mouse models of carcinogenesis we carried out in silico analysis and in vitro experiments to evaluate the existence of a mouse homologous of the human cyclin D1b transcript. We were unable to find any evidence of an alternatively spliced transcript in mouse Ccnd1. These results show that human cyclin D1b has different biological functions than cyclin D1a and confirm its oncogenic properties.Fil: Rojas, Paola Andrea. Consejo Nacional de Investigaciones Científicas y Técnicas. Instituto de Biología y Medicina Experimental. Fundación de Instituto de Biología y Medicina Experimental. Instituto de Biología y Medicina Experimental; Argentina. University of Texas; Estados UnidosFil: Benavides, Fernando. University of Texas; Estados UnidosFil: Blando, Jorge. University of Texas; Estados UnidosFil: Pérez, Carlos. University of Texas; Estados UnidosFil: Cardenas, Kim. University of Texas; Estados UnidosFil: Richie, Ellen. University of Texas; Estados UnidosFil: Knudsen, Erik S.. Thomas Jefferson University; Estados UnidosFil: Johnson, David G.. University of Texas; Estados UnidosFil: Senderowicz, Adrian M.. Department of Health and Human Services. Food and Drug Administration. Center for Drug Evaluation and Research; Estados UnidosFil: Rodriguez Puebla, Marcelo L.. University of North Carolina; Estados UnidosFil: Conti, Claudio. University of Texas; Estados Unido
The Bose–Hubbard model with squeezed dissipation
The stationary properties of the Bose–Hubbard model under squeezed dissipation are investigated. The dissipative model does not possess aU (1) symmetry but conserves parity. We find that 〈a j 〉 = 0 always holds, so no symmetry breaking occurs. Without the onsite repulsion, the linear case is known to be critical. At the critical point the system freezes to an EPR state with infinite two mode entanglement. We show here that the correlations are rapidly destroyed whenever the repulsion is switched on. As we increase the latter, the system approaches a thermal state with an effective temperature defined in terms of the squeezing parameter in the dissipators. We characterize this transition by means of a Gutzwiller ansatz and the Gaussian Hartree–Fock–Bogoliubov approximation
Evapotranspiration from a Mediterranean evergreen oak savannah: The role of trees and pasture
Mediterranean evergreen oak woodlands of southern Portugal (montados) are savannah-type ecosystems
with a widely sparse tree cover, over extensive grassland. Therefore, ecosystem water fluxes derive from
two quite differentiated sources: the trees and the pasture. Partitioning of fluxes according to these different
sources is necessary to quantify overall ecosystem water losses as well as to improve knowledge
on its functional behaviour. In southern Iberia, these woodlands are subjected to recurrent droughts.
Therefore, reaction/resilience to water stress becomes an essential feature of vegetation on these ecosystems.
Long-term tree transpiration was recorded for 6 years from a sample of holm oak (Quercus ilex ssp.
rotundifolia) trees, using the Granier sap flow method. Ecosystem transpiration was measured by the eddy
covariance technique for an 11-month period (February to December 2005), partly coincident with a
drought year. Pasture transpiration was estimated as the difference between ecosystem (eddy covariance)
and tree (sap flow) transpiration. Pasture transpiration stopped during the summer, when the surface
soil dried up. In the other seasons, pasture transpiration showed a strong dependence on rainfall
occurrence and on top soil water. Conversely, trees were able to maintain transpiration throughout the
summer due to the deep root access to groundwater. Q. ilex trees showed a high resilience to both seasonal
and annual drought. Tree transpiration represented more than half of ecosystem transpiration, in
spite of the low tree density (30 trees ha 1) and crown cover fraction (21%). Tree evapotranspiration
was dominated by transpiration (76%), and interception loss represented only 24% of overall tree
evaporatio
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